Differential effect of salt loading on sodium and lithium excretion in Dahl salt-resistant and -sensitive rats

Fractional excretion of lithium, as a marker for proximal sodium reabsorption, was determined in normotensive Dahl S rats (susceptible to NaCl hypertension) and Dahl R rats (resistant to NaCl hypertension) before and following an acute sodium load. Baseline mean arterial pressures, inulin clearances, sodium excretion rates, and fractional lithium clearances were not different between the R and S rats. Following the salt loading and despite similar mean arterial pressures and degree of volume expansion, the glomerular filtration rate, urinary flow rates, and absolute sodium excretion rates were greater in R than S rats. The fractional excretion of lithium was also greater in R than S rats. These data demonstrate that, at equal mean arterial pressures, Dahl S rats have a reduced capacity for sodium excretion, and that this defect is present prior to the development of hypertension. Furthermore, the observation that these animals also have a lower fractional lithium excretion during volume expansion suggests that salt loading reduces proximal tubule reabsorption to a lesser extent in Dahl S than R rats. These data suggest that the subnormal sodium and water excretion observed after sodium loading in S rats may be partially due to an abnormality in proximal tubule sodium handling.     

Effects of acute volume loading on kidney function in patients with essential hypertension, as estimated by the lithium clearance method

This study investigated the mechanism underlying the exaggerated natriuresis seen in patients with essential hypertension. The study used the lithium clearance method, which permits accurate determination of both proximal and distal sodium reabsorption in man. One litre of isotonic sodium chloride, intravenously (i.v.), produced a significant increase in sodium excretion in patients with essential hypertension, both during and after the infusion. This increase in sodium excretion was accompanied by a significant increase in the clearance of lithium, indicating an increased output of isotonic fluid from the proximal tubules. The calculated distal reabsorption of sodium increased during the natriuresis. In the normotensive controls, sodium excretion increased only after the infusion of 1 l isotonic saline. This was accompanied by a modest increase in absolute distal sodium reabsorption. However, when the amount of saline was increased to 2 l, similar changes to those seen in hypertensives given 1 l of saline occurred in normotensive subjects. Furthermore, chronic antihypertensive treatment abolished the phenomenon of exaggerated natriuresis. It is concluded that the exaggerated natriuresis represents the normal response to sodium loading being reset to a lower level. This resetting may be a secondary consequence of the high blood pressure, since lowering the pressure abolishes the phenomenon.     

Renal lithium reabsorption in man: physiologic and pharmacologic determinants.

In order to evaluate the premise that renal lithium reabsorption may reflect proximal tubular sodium reabsorption, the fractional excretion of lithium (FELi) was measured, during a variety of experimental maneuvers known to affect renal cation reabsorption, in normal volunteers who had been pre-loaded with lithium. Furosemide increased FELi, as well as sodium, calcium, and magnesium excretion, during the first hour following diuretic administration. Subsequently, sodium, calcium, and magnesium excretion continued to remain elevated after furosemide, despite progressive volume depletion, but FELi values usually declined at least to pretreatment levels. Oral glucose ingestion increased lithium, calcium, and magnesium excretion while sodium and potassium excretion decreased concomitantly. Increases in FELi during volume expansion with saline were correlated with changes in fractional flow (V/GFR) in natriuretic subjects. Parathyroid extract (PTE) increased both FELi and fractional phosphate excretion (FEphos). FELi and FEphos were correlated significantly in the studies with furosemide and PTE, but not after saline volume expansion. In persons who previously had undergone unilateral nephrectomy, FELi was not increased over values in normal subjects. These results indicate that changes in lithium reabsorption may be dissociated from the reabsorption of other cations. They are consistent with the hypothesis that FELi may reflect proximal tubular sodium rejection, but do not exclude other more distal sites of lithium reabsorption.     

Effects of insulin on renal haemodynamics and the proximal and distal tubular sodium handling in healthy subjects

Summary The effects of insulin on renal haemodynamics and renal sodium handling were studied in 10 healthy males. Using the euglycaemic insulin clamp technique, insulin was infused on separate days resulting in two levels of hyperinsulinaemia (41 ± 3 and 90 ± 7 mU/1, respectively). Renal haemodynamics and the proximal and distal tubular sodium handling were studied using inulin, para-amino-hippuric acid, sodium and lithium clearances. Low- and high-dose insulin infusions were followed by a fall in sodium clearance from 1.6 ± 0.1 ml/min to 1.2 ± 0.1 and 1.0 ± 0.1 ml/min, respectively. Both levels of hyperinsulinaemia resulted in increased distal tubular sodium reabsorption. The distal antinatriuretic effect of insulin was associated with dose- and time-dependent decline in proximal tubular sodium reabsorption. The changes in proximal tubular sodium handling occurred without any significant changes in natriuretic factors, such as renal dopamine and plasma atrial natriuretic peptide levels. However, hyperinsulinaemia resulted in time- and dose-dependent increases in renal plasma flow, and renal vasodilatation could, possibly via changes in renal interstitial pressure, have contributed to the fall in the proximal tubular sodium reabsorption. The results also suggest that decreased proximal sodium reabsorption may be a compensatory mechanism counteracting the insulin-induced sodium retention.     

Renal sodium handling and haemodynamics are equally affected by hyperinsulinaemia in salt-sensitive and salt-resistant hypertensives

OBJECTIVE : It is well-known that insulin induces renal sodium retention. It is not yet known whether insulin's renal effects are involved in the development of salt-sensitive hypertension. We assessed the effects of insulin on renal sodium handling and haemodynamics in 10 salt-sensitive (SS) and 10 salt-resistant (SR) essential hypertensives. DESIGN : After a baseline period of 90 min, all subjects underwent a euglycaemic clamp with sequential infusion of a physiological and supraphysiological dose of insulin (50 and 150 mU/kg per h) during 90 min periods each. Time-control studies were performed in the same subjects. Clearances of 131I-hippuran, 125I-iothalamate, sodium and lithium were used to evaluate renal plasma flow (RPF), CNa/glomerular filtration rate (GFR) and fractional proximal and distal sodium reabsorption. RESULTS : Plasma insulin levels and insulin-mediated glucose uptake did not differ between both groups. RPF and GFR showed similar increases during both insulin infusions in both groups. During physiological hyperinsulinaemia, fractional sodium excretion decreased 38% (P = 0.009) in the SS group and 36% (P = 0.002) in the SR group. During supraphysiological hyperinsulinaemia, fractional sodium excretion decreased 49% (P = 0.01) in the SS group and 19% (P = 0.2) in the SR group, not statistically different between both groups. Fractional proximal sodium reabsorption was unaffected and fractional distal sodium reabsorption increased to a similar magnitude in both groups. CONCLUSION : The comparable renal effects of acute exogenous hyperinsulinaemia in SS and SR hypertensives do not support a role for insulin in the development of salt-sensitive hypertension. However, the results do not yet exclude a role for chronic hyperinsulinaemia.     

Proximal sodium reabsorption: An independent determinant of blood pressure response to salt

The purpose of this study was to evaluate the contribution of renal sodium handling by the proximal tubule as an independent determinant of blood pressure responsiveness to salt in hypertension. We measured blood pressure (BP), renal hemodynamics, and segmental renal sodium handling (with lithium used as a marker of proximal sodium reabsorption) in 38 hypertensive patients and 27 normotensive subjects (15 young and 12 age-matched) on a high and low sodium diet. In control subjects, changing the diet from a low to a high sodium content resulted in no change in BP and increases in glomerular filtration rate (P<0.05), renal plasma flow (P<0.05), and fractional excretion of lithium (FE(Li), P<0.01). In hypertensive patients, comparable variations of sodium intake induced an increase in BP with no change in renal hemodynamics and proximal sodium reabsorption. When analyzed by tertiles of their BP response to salt, salt-insensitive hypertensive patients of the first tertile disclosed a pattern of adaptation of proximal sodium reabsorption comparable to that of control subjects, whereas the most salt-sensitive patients of the third tertile had an inverse pattern with a high FE(Li) on low salt and a lower FE(Li) on high salt, suggesting an inappropriate modulation of proximal sodium reabsorption. The BP response to salt correlated positively with age (r=0.34, P=0.036) and negatively with the changes in FE(Li) (r=-0.37, P=0.029). In a multivariate analysis, the changes in FE(Li) were significantly and independently associated with the salt-induced changes in BP. These results suggest that proximal sodium reabsorption is an independent determinant of the BP response to salt in hypertension.     

Lithium infusion to study sodium handling in unanesthetized hypertensive rats

To investigate renal tubular handling of sodium in various types of experimental hypertension, sodium, lithium, and inulin clearances were measured simultaneously in unanesthetized rats. Fractional excretion of lithium was used as an index of proximal sodium reabsorption. Eight groups of animals, all of the Wistar-Kyoto strain, were studied. Three were hypertensive: spontaneously hypertensive rats (SHR), rats with two-kidney, one clip renal hypertension, and uninephrectomized rats with deoxycorticosterone-salt hypertension. The five normotensive control groups included animals given normal, low, or high dietary sodium loads and rats with reduced renal mass. Fractional excretion of lithium was not influenced by moderate changes of glomerular filtration rate, but was sharply enhanced by sodium loading. Increased blood pressure was associated with enhanced urinary sodium excretion in uninephrectomized deoxycorticosterone-salt hypertensive and two-kidney, one clip hypertensive rats, as a result of decreased distal tubular reabsorption ("pressure natriuresis"). In contrast, SHR showed reduced sodium excretion and decreased fractional excretion of lithium, which suggests that increased sodium reabsorption in the proximal tubule may contribute significantly to the maintenance of hypertension.     

Exaggerated natriuresis and lithium clearance in spontaneously hypertensive rats

Since hypertension is associated with changes in the handling of various cations (including sodium and lithium) across the cell membrane, the present study investigated the validity of the lithium clearance method in hypertension by comparing two measures of proximal reabsorption. Thus, fractional lithium excretion and transit time (TT)-occlusion time (OT; e-TT/T) were determined successively in the same spontaneously hypertensive rat (SHR, Okamoto strain). The rats were examined both before and after an acute saline load. The results show that the lithium clearance method can be used for the determination of proximal reabsorption in SHR. Utilizing the lithium clearance method, the changes in renal sodium handling underlying the exaggerated natriuresis were investigated in unanaesthetized catheterized rats. It was found that the exaggerated natriuresis was associated with an increased output from the proximal tubule, whereas no difference in distal sodium handling could be detected between SHR and normotensive Wistar-Kyoto rats (WKY).     

Abnormal renal responses to calcium entry blockade in normotensive offspring of hypertensive parents

In nine young normotensive subjects with no family history of hypertension and nine age-matched normotensive subjects with one parent with essential hypertension, effective renal plasma flow (p-aminohippuric acid clearance), glomerular filtration rate (inulin clearance), and excretion of sodium and exogenously administered lithium were measured for 90 minutes before and after administration of a single 20-mg oral dose of the calcium entry blocker nifedipine. Segmental tubular handling of fluid and sodium was estimated using lithium clearance as a marker of proximal tubular reabsorption. Nifedipine did not cause any change in subjects with no family history of hypertension, but in those with one hypertensive parent there was a marked increase in effective renal plasma flow (from 644 +/- 39 to 847 +/- 42 [SEM] ml/min x 1.73 m2; p less than 0.001) and a decrease in filtration fraction (from 17.6 +/- 1.0 to 12.6 +/- 0.4%; p less than 0.001), while the glomerular filtration rate was unchanged, thus suggesting a prevailing efferent vasodilation. Sodium excretion rate (p less than 0.02) and fractional sodium excretion (p less than 0.025) increased slightly but significantly in subjects with one hypertensive parent, but not in normotensive subjects with no family history of hypertension. Lithium clearance also rose (from 29.0 +/- 2.0 to 32.8 +/- 1.9 ml/min, p less than 0.001), and the derived value of fractional proximal reabsorption diminished (from 75.8 +/- 1.0 to 71.3 +/- 1.2%, p less than 0.001). Estimated distal delivery of sodium and absolute distal sodium reabsorption both increased significantly (p less than 0.005), while fractional distal sodium reabsorption was unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)     

Association between arterial properties and renal sodium handling in a general population

Mean arterial pressure drives pressure-natriuresis and determines arterial structure and function. In a population sample, we investigated the relation between arterial characteristics and renal sodium handling as assessed by the clearance of endogenous lithium. We ultrasonographically measured diameter, cross-sectional compliance (CC) and distensibility (DC) of the carotid, brachial, and femoral arteries in 1069 untreated subjects (mean age: 41.6 years; 50.1% women; 18.8% hypertensive subjects). While accounting for covariates and standardizing for the sodium excretion rate in both sexes, CC and DC of the femoral artery increased with higher fractional distal sodium reabsorption. Differences associated with a 1-SD change in fractional distal reabsorption of sodium were 51.7 mm(2)/kPax10(-3) (95% CI: 23.9 to 79.5; P=0.0002) and 0.56x10(-3)/kPa (95% CI: 0.17 to 0.94; P=0.004) for femoral CC and DC, respectively. In women as well as in men, a 1-SD increment in fractional proximal sodium reabsorption was associated with decreases in femoral and brachial diameter, amounting to 111.6 mum (95% CI: 38.2 to 185.1; P=0.003) and 52.5 mum (95% CI: 10.0 to 94.9; P=0.016), respectively. There was no consistent association between the properties of the elastic carotid artery and renal sodium handling. In conclusion, higher fractional sodium reabsorption in the distal nephron is associated with higher femoral CC and DC, and higher proximal sodium reabsorption is associated with decreased brachial and femoral diameters. These findings demonstrate that there might be an influence of renal sodium handling on arterial properties or vice versa or that common mechanisms might influence both arterial and renal function.     

Effects of insulin and lipid emulsion on renal haemodynamics and renal sodium handling in IDDM patients

Summary To evaluate the role of insulin and hypertriglyceridaemia in the regulation of renal haemodynamics and sodium handling in insulin-dependent diabetes mellitus (IDDM), 11 IDDM patients without microalbuminuria and 13 weight-, age-, protein intake- and sex-matched healthy control subjects were studied. Clearances of inulin (C_in), para-amino-hippuric acid (C_PAH), sodium (C_Na), and lithium (C_Li) were measured in four 60-min clearance periods (periods I, II, III and IV) during isoinsulinaemia with lipid emulsion infusion (study 1), a hyperinsulinaemic isoglycaemic clamp with Intralipid infusion (study 2), and during time-controlled isoinsulinaemia (study 3). We found that C_in, C_PAH and filtration fraction were comparable in IDDM and control subjects, whereas C_Na was decreased in diabetic subjects (2.01±1.11 vs 3.03±1.32 ml/min; p<0.05) due to elevations of proximal tubular fractional and absolute reabsorptions of sodium (p<0.05). Insulin infusion did not affect C_in, increased C_PAH (p<0.05) and, consequently, lowered the filtration fraction (p<0.01) in both groups. While acute hyperinsulinaemia resulted in increases in distal tubular fractional and absolute reabsorptions of sodium (p<0.01) contributing to a fall in C_Na (p<0.01) in control subjects, in diabetic subjects the sodium-retaining effect of insulin was not significant. The lipid emulsion did not alter any of the estimated parameters. We conclude that IDDM without microalbuminuria is associated with a tendency to sodium retention which is not aggravated by insulin when compared to control subjects. Acutely induced hypertriglyceridaemia does not alter renal haemodynamics or renal sodium handling.Abbreviations IDDM Insulin-dependent diabetes mellitus - GFR glomerular filtration rate - RPF renal plasma flow - C_in clearance of inulin - C_PAH clearance of para-amino-hippuric acid - C_Na clearance of sodium - C_Li clearance of lithium - APR_Na absolute proximal tubular reabsorption of sodium - FPR_Na fractional proximal tubular reabsorption of sodium - ADR_Na absolute distal tubular reabsorption of sodium - FDR_Na fractional distal tubular reabsorption of sodium - FIRI free plasma immunoreactive insulin - TG serum triglycerides - NEFA serum non-esterified fatty acids - MCR metabolic clearance rate of glucose - FF filtration fraction - ANOVA analysis of variance     

Red-cell sodium-lithium countertransport and fractional excretion of lithium in normal and hypertensive humans

To examine the relations between erythrocyte sodium-lithium countertransport and renal proximal tubular sodium handling, we measured countertransport, and then subjected 30 normal and 32 hypertensive subjects, both white and black, to provocative maneuvers of volume expansion and contraction. The fractional excretions of sodium and lithium were measured simultaneously. In agreement with previous studies, we found that countertransport in erythrocytes was elevated in hypertensive patients compared with normal subjects. We also observed that whites have a higher level of countertransport than blacks. In the basal state, we found that fractional sodium excretion of hypertensive patients was no different than in normal subjects, whereas the fractional lithium excretion of hypertensive persons was increased compared with normotensive values. Volume expansion with 2 1 0.9% saline administered intravenously during a 4-hour period provoked an exaggerated natriuresis and a greater increase in fractional lithium clearance in hypertensive patients compared with the control group. With volume expansion and contraction, fractional lithium clearance and countertransport were directly correlated. Our data suggest that hypertensive persons do not have increased proximal tubular sodium reabsorption compared with normal subjects. Further, the exaggerated natriuresis of hypertension is, in part, the result of increased distal solute delivery. The fact that our hypertensive patients were older may partially explain the discrepancies between this report and previous observations.     

A comparison of the action of atriopeptin III on renal function in normal and DOCA-salt hypertensive rats

Administration of atriopeptin III (125, 250 and 500 ng/kg, intravenously) into pentobarbitone anaesthetized normotensive and DOCA-salt hypertensive rats had no effect on blood pressure or renal haemodynamics. Urine flow and absolute and fractional sodium excretion were increased by 48-90% from the lowest to the highest dose of atriopeptin III in the normotensive group, but were increased by over twice these amounts in the DOCA-salt hypertensive rats. Fractional lithium excretion and calculated proximal tubular fluid reabsorption were unaffected by the peptide in the normotensive rats, but in the hypertensive group atriopeptide III increased fractional lithium excretion by 25-50% and decreased proximal tubular reabsorption to a similar extent. Beyond the proximal tubule there were similar increases in fractional and absolute fluid handling in both groups of rats. These results demonstrated that in DOCA-salt hypertension there was increased sensitivity to the natriuretic activity of atriopeptin III which appeared to result from an increased responsiveness of the proximal tubule.     

Effect of acute hyperglycaemia on sodium handling and excretion of nitric oxide metabolites, bradykinin, and cGMP in Type 1 diabetes mellitus.

AIMS: The aim of this study was to evaluate the effect of acutely induced hyperglycaemia on renal sodium handling and to explore the role of the bradykinin-nitric oxide-cGMP signalling pathway. PATIENTS AND METHODS: We compared 20 Type 1 diabetic (DM1) patients without microalbuminuria with 15 weight-, age-, and sex-matched healthy controls (C). Clearances of para-aminohippuric acid (CPAH), inulin (Cin), lithium, sodium, and urinary nitrite/nitrate (NOx), cGMP and bradykinin excretion rates were measured in two 90-min periods: a glycaemic clamp-induced euglycaemia (5 mmol/l-period I) and hyperglycaemia (12 mmol/l-period II) (Study 1) and during time-controlled euglycaemia (5 mmol/l-period I and 5 mmol/l-period II) to avoid the effects of time and volume load (Study 2). RESULTS: Cin and CPAH were not significantly different during euglycaemia (period I of Study 1) in DM1 and controls, whereas fractional excretion of sodium was decreased in DM1 (1.84 +/- 0.75 vs. 2.36 +/- 0.67%; P < 0.05) due to an increase in fractional distal tubular reabsorption of sodium (94.01 +/- 1.94 vs. 92.24 +/- 2.47%; P < 0.05). A comparison of changes during Study 1 and Study 2 revealed acute hyperglycaemia did not change renal haemodynamics significantly, while fractional distal tubular reabsorption of sodium increased (DM1: P < 0.05; C: P < 0.01) and fractional excretion of sodium decreased (P < 0.01) in both groups. The urinary excretion rates of NOx were comparable during euglycaemia in DM1 and C. While in C, they significantly increased during Study 1 (period I: 382 +/- 217 vs. period II: 515 +/- 254 nmol/min; P < 0.01) and Study 2 (period I: 202.9 +/- 176.8 vs. period II: 297.2 +/- 267.5 nmol/min; P < 0.05) as a consequence of the water load, no changes were found in DM1. The urinary excretion of bradykinin was lower in DM1 compared with C (0.84 +/- 0.68 vs. 1.20 +/- 0.85 micro g/min; P < 0.01) during euglycaemia; it was not affected by hyperglycaemia. There were no significant differences between DM1 and C and in cGMP urinary excretion rates following hyperglycaemia. CONCLUSION: This study demonstrates that DM1 without renal haemodynamic alterations is associated with impaired renal sodium handling. Moreover, we did not find a relationship between the renal excretion rates of vasoactive mediators and sodium handling due to hyperglycaemia.     

Effects of amiloride on renal lithium handling in nonazotemic ascitic cirrhotic patients with avid sodium retention.

The reliability of lithium clearance as an index of distal fluid delivery in cirrhosis with ascites and in other clinical conditions characterized by low fractional sodium excretion has not yet been proven. In particular, lithium reabsorption in the amiloride-sensitive segment of the distal tubule, as evidenced in experimental studies, has not been excluded in such clinical conditions. Thus the acute effect of amiloride on renal lithium handling in 15 nonazotemic ascitic cirrhotic patients with avid sodium retention was evaluated after at least 5 days of controlled sodium intake. Renal plasma flow, glomerular filtration rate, fractional sodium excretion, fractional lithium excretion, fractional potassium excretion, fractional excretion of uric acid, plasma renin activity, plasma aldosterone and human atrial natriuretic peptide were evaluated before and for 6 hr after the administration of amiloride (20 mg/os). After amiloride administration a volume replacement scheme was enacted with intravenous amounts of saline solution, determined by the diuretic and natriuretic effect of the drug, to avoid volume depletion. Amiloride induced a prompt and sustained increase in fractional sodium excretion (from 0.28% +/- 0.09% to 1.0% +/- 0.41%, p less than 0.001) and a decrease in fractional potassium excretion (from 9.38% +/- 5.98% to 3.28% +/- 2.24%, p less than 0.0025), whereas it did not affect fractional lithium excretion and fractional excretion of uric acid. No change was observed in renal plasma flow, glomerular filtration rate, plasma renin activity, plasma aldosterone and human atrial natriuretic peptide. It was concluded that lithium is not reabsorbed in the amiloride-sensitive segment of the distal tubule in nonazotemic ascitic cirrhotic patients with avid sodium retention.     

Acute effects of nifedipine on renal electrolyte excretion in normal and hypertensive subjects

The role of renal calcium handling in the hypotensive response to calcium channel blockers has not been investigated previously. The acute vasodilatory effect of calcium channel blockers may be accompanied by changes in renal electrolyte handling that are important in renal electrolyte handling that are important in producing the hypotensive response seen with these agents. Nifedipine has been shown to cause acute and chronic natriuresis and diuresis, which are important in the ability to use nifedipine chronically in essential hypertension. We prospectively investigated the acute effect of 10 mg of nifedipine orally on renal cation handling in normotensive and untreated essential hypertensive subjects during a standard oral water load. At baseline there was no difference between normotensives and hypertensives in serum ionized calcium or magnesium, or in the urinary fractional excretion of these two cations. Oral nifedipine acutely increased the fractional excretion of sodium without changing the fractional excretion of calcium or magnesium. Nifedipine did not alter the serum concentrations of sodium, calcium, or magnesium. Augmented sodium excretion may play a role in the acute hypotensive response to oral nifedipine. The acute hypotensive response does not seem to be caused by altered renal handling of calcium or magnesium. Counterbalancing effects of nifedipine on proximal and distal nephron calcium handling may explain the disassociation of augmented sodium excretion and no net change in calcium excretion.     

Atrial natriuretic peptide and exaggerated natriuresis during acute hypertonic volume expansion in essential hypertension

In patients with essential hypertension and healthy controls, plasma levels of atrial natriuretic peptide (ANP), angiotensin II (Ang II), aldosterone (Aldo), arginine vasopressin (AVP) and urinary excretion of prostaglandin E2 (PGE2) were measured under basal conditions, and before and after acute volume expansion with a 2.5% hypertonic sodium chloride solution. Tubular sodium handling was assessed by the lithium clearance technique. Under basal conditions ANP was increased in patients compared with controls (9.0 pmol/l versus 7.5 pmol/l, P less than 0.01). In response to acute volume expansion patients exhibited exaggerated increases in ANP (5.3 pmol/l versus 3.0 pmol/l, P less than 0.05), exaggerated natriuresis, and an abnormal decrease in fractional proximal and distal tubular sodium reabsorption (PFRNa and DFRNa, respectively). Furthermore, during comparable urinary flow rates, urinary PGE2 excretion was decreased in patients compared with controls (266 pg/min versus 705 pg/min, P less than 0.05). No differences were found between patients and controls in Ang II, Aldo or AVP under basal conditions. Both groups responded to hypertonic acute volume expansion with comparable decreases in Ang II and Aldo, and an increase in AVP. It is concluded that in essential hypertension ANP is increased under basal conditions and the increase in natriuresis and ANP is exaggerated during acute volume expansion. The exaggerated natriuretic response to acute volume expansion resulted from an altered handling of sodium in both proximal and distal tubules.     

Pressure-diuresis in volume-expanded rats. Tubular reabsorption in superficial and deep nephrons

Micropuncture experiments were performed in volume-expanded rats to better define the nephron segments in which changes in renal perfusion pressure inhibit tubular reabsorption. Neural influences on the kidney were eliminated by renal denervation, and plasma levels of vasopressin, aldosterone, corticosterone, and norepinephrine were maintained at fixed levels by i.v. infusion. Fractional excretion of sodium, chloride, and water increased markedly after renal perfusion pressure was elevated from 110 to 150 mm Hg. Renal blood flow, glomerular filtration rate, and single nephron glomerular filtration rate measured from deep and superficial nephrons were unsaltered. Reabsorption of chloride and water in the proximal tubule of superficial nephrons decreased by 10% after renal perfusion pressure was elevated and contributed to the pressure-diuretic response. Changes in renal perfusion pressure also altered the reabsorption of water and chloride in juxtamedullary nephrons. The percentage of the filtered water load reaching the tip of the loop of Henle increased from 19.8 +/- 2.9 to 38.1 +/- 3.0% after renal perfusion pressure was elevated. Chloride delivery rose from 34.2 +/- 4.3 to 65.2 +/- 4.8% of the filtered load. These results support the view that alterations in medullary hemodynamics participate in the pressure-natriuretic response by inhibiting tubular reabsorption in the proximal tubule or the thin descending limb of the loop of Henle (or both) of juxtamedullary nephrons.     

Renal tubular reabsorption of calcium and sodium in primary hyperparathyroidism

Nine patients with primary hyperparathyroidism were studied to investigate the renal tubular reabsorption of calcium and sodium. Fasting serum and urine samples were analysed, and the glomerular filtration rate and the renal plasma clearance of lithium were determined simultaneously. Comparison was made with 9 age- and sex-matched normocalcemic controls. In the proximal tubule, there was a significantly higher absolute reabsorption of calcium in patients than in controls, whereas the fractional reabsorption rate of calcium did not differ between the two groups. In the distal tubule, the absolute calcium reabsorption rate was significantly higher in the patients, whereas the fractional reabsorption rate of calcium was significantly lower than in controls. In the patient group there was a significantly positive linear correlation between the increased tubular capacity for calcium reabsorption and the absolute proximal calcium reabsorption rate, but not between the increased capacity and the absolute distal calcium reabsorption rate. No significant differences were found in the renal tubular handling of sodium between patients and controls. Our results suggest that the increased capacity for tubular calcium reabsorption in primary hyperparathyroidism mainly is localized in the proximal tubule, and that the renal tubular handling of calcium and sodium in this disease differs from that in familial hypocalciuric hypercalcemia.     

Effect of insulin on renal sodium handling and renal haemodynamics in insulin-dependent (type 1) diabetes mellitus patients

The effects of insulin on renal haemodynamics and renal sodium handling were studied in eight insulindependent (type 1) diabetic patients (aged 30±3 years). Seven healthy men (aged 38±4 years) served as controls. The type 1 diabetic patients were resistant to insulin-stimulated glucose disposal as estimated by a 45% lower metabolic (P<0.01) clearance of glucose as compared with controls. However, type 1 diabetic patients were still sensitive to the distal tubular antinatriuretic effect of insulin, as indicated by an increase in distal sodium reabsorption (95.5%±0.5% to 96.9%±0.4%;P<0.05) during insulin infusion compared with controls (95.5%±0.6% to 97.4%±0.3%;P<0.05). In control subjects insulin infusion was associated with 9% increases (P<0.05) in lithium clearance and in renal plasma flow, whereas no significant increases in lithium clearance and in renal plasma flow were observed in the type 1 diabetic patients. In both groups, the changes in renal plasma flow in response to insulin infusion were positively correlated with that in lithium clearance (r=0.80 andr=0.90, respectively;P<0.05?0.01). In conclusion, the present result demonstrates an intact distal tubular sodium retaining effect in conjunction with a blunted decrease in proximal tubular sodium reabsorption following insulin infusion, which could be the result of an impaired renal vasodilation in type 1 diabetes mellitus.